We analyze the efficiency properties of a numerical pricing method based on Fourier-cosine expansions for early-exercise options. We focus on variants of Schwartz’ model [20] based on a mean reverting Ornstein-Uhlenbeck process [23], which is commonly used for modeling commodity prices. This process however does not possess favorable properties for the option pricing method of interest. We therefore propose an approximation of its characteristic function, so that the Fast Fourier Transform can be applied for highest efficiency.Electrical Engineering, Mathematics and Computer Scienc
Abstract. Here we develop an option pricing method for European options based on the Fourier-cosine ...
This paper investigates several competing procedures for computing the prices of vanilla Euro-pean o...
textabstractAt the time of writing this article, Fourier inversion is the computational method of ch...
We present a pricing method based on Fourier-cosine expansions for early-exercise and discretely-mon...
Abstract. A fast and accurate method for pricing early exercise and certain exotic options in comput...
We present a pricing method based on Fourier-cosine expansions for early-exercise and discretely-mon...
A fast and accurate method for pricing early exercise and certain exotic options in computational fi...
This paper describes a fast, flexible numerical technique to price American options and generate the...
In the financial world, two tasks are of prime importance: model calibration and portfolio hedging. ...
The earliest option pricing models originated by Black and Scholes [1] and Merton [18] use the Geome...
We present a pricing method based on Fourier-cosine expansions for early-exercise and discretely-mon...
Abstract. A fast and accurate method for pricing early exercise options in computational finance is ...
Here we develop an option pricing method for European options based on the Fourier-cosine series, an...
This paper investigates several competing procedures for computing the prices of vanilla European op...
In this article, we propose an efficient pricing method for Asian options with early–exercise featur...
Abstract. Here we develop an option pricing method for European options based on the Fourier-cosine ...
This paper investigates several competing procedures for computing the prices of vanilla Euro-pean o...
textabstractAt the time of writing this article, Fourier inversion is the computational method of ch...
We present a pricing method based on Fourier-cosine expansions for early-exercise and discretely-mon...
Abstract. A fast and accurate method for pricing early exercise and certain exotic options in comput...
We present a pricing method based on Fourier-cosine expansions for early-exercise and discretely-mon...
A fast and accurate method for pricing early exercise and certain exotic options in computational fi...
This paper describes a fast, flexible numerical technique to price American options and generate the...
In the financial world, two tasks are of prime importance: model calibration and portfolio hedging. ...
The earliest option pricing models originated by Black and Scholes [1] and Merton [18] use the Geome...
We present a pricing method based on Fourier-cosine expansions for early-exercise and discretely-mon...
Abstract. A fast and accurate method for pricing early exercise options in computational finance is ...
Here we develop an option pricing method for European options based on the Fourier-cosine series, an...
This paper investigates several competing procedures for computing the prices of vanilla European op...
In this article, we propose an efficient pricing method for Asian options with early–exercise featur...
Abstract. Here we develop an option pricing method for European options based on the Fourier-cosine ...
This paper investigates several competing procedures for computing the prices of vanilla Euro-pean o...
textabstractAt the time of writing this article, Fourier inversion is the computational method of ch...